哈尔滨市城区环境电磁辐射的监测与分析
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摘要
电磁辐射是继水、噪声、大气之后的第四大环境污染源,随着人们对电磁技术的广泛应用,电磁污染问题日趋严重。本文以哈尔滨市为例,介绍了城区一般电磁辐射环境和特定电磁辐射环境的质量状况。
对于一般电磁辐射环境,通过网格法布点监测、参照国家标准进行环境质量评价以及应用地理信息系统软件Arc View GIS绘制等值线图,掌握了城区一般电磁辐射环境较为清洁的状况;同时,采用了污染源调查的方式对电磁辐射水平高的区域进行了具体分析,发现这一区域有中波发射塔存在,应加强电磁辐射防护工作。
对于特定电磁辐射环境的研究,通过对电磁辐射源的统计分析,确定了移动通信基站、广播电视系统和高压电力系统为主要研究对象。以电磁环境监测的相关标准为主要方法,通过对三类电磁辐射源的环境监测与分析,得出其周围电磁辐射环境总体上较为清洁的结论;同时,通过对各类电磁辐射源的固有特点、电磁环境特点等方面的分析,在电磁辐射源的规划和建设上提出了合理性建议。
为了维护公众健康、防止电磁辐射污染,必须采取有力的防治措施,建议从严格执行政策法规、合理应用污染控制技术和加强个体防护三方面开展这项工作。
通过对哈尔滨市一般电磁辐射环境和特定电磁辐射环境两方面的研究,较好地掌握了整个城区的电磁辐射水平,具有一定的理论和实际意义:研究内容系统化;为电磁辐射体科学规划、电磁辐射污染防治指明了方向;为今后电磁辐射环境管理奠定了基础;可以为其他城市的电磁辐射污染调查工作提供可行性依据。
The electromagnetic radiation is the fourth environmental pollution source behind water, noise, atmosphere, Along with people applying electromagnetic technique extensively, the problem of electromagnetism pollution is gradually serious. Taking Harbin City as an example, the city area quality condition of general radiafrequency environment and specific source environment are introduced.
For general radiafrequency environment, through a lattice stationing and monitoring, carry on the environment quality evaluation according to national standard to, and apply software of geographic information system Arc View GIS to draw the contour chart, as a result, more sanitary condition of general radiafrequency environment is mastered in the city area; at the same time, carry on concrete analysis by the way of adopting the pollution source inquisition to region of high the electromagnetism radiation level, and discover there is the medium wave transmitting tower in district, strengthen protection of electromagnetic radiation.
To the specific source environment, through statistical analysis of electromagnetic radiation source first, mobilephone station and broadcast television system and high-tension system, are made main subjects investigated. The main method is the related standard with the electromagnetism environment monitoring, carry on the environment monitoring and analysis to three types of electromagnetic radiation source, the conclusion is that electromagnetic radiation is clean comparatively in their milieu environment; simultaneously, analyze aspects, such as proper characteristics of each kind of electromagnetic radiation source and the electromagnetism environment characteristics...etc., put the rationality suggestion on the programming and construction of the electromagnetic radiation source.
For supporting the public health and preventing from the electromagnetism radiation pollution, it is a must to take potent prophylactico-therapeutic measures, suggest completing this work from strict carrying out policy laws, reasonable application the pollution control technology and strengthen the individual protection three aspects.
Through research on the general radiafrequency environment and specific source environment in Harbin City, master the electromagnetic radiation level of the whole city district, it has a certain meanings of the theories and practice: systematize ror researching the contents; indicate a direction for scientific programming of electromagnetic radiator and prevention of pollution of the electromagnetic radiation; it is foundation for environmental management of electromagnetic radiation in future; provide a feasibility criterion for the investigation of electromagnetism pollution in other cities.
对于一般电磁辐射环境,通过网格法布点监测、参照国家标准进行环境质量评价以及应用地理信息系统软件Arc View GIS绘制等值线图,掌握了城区一般电磁辐射环境较为清洁的状况;同时,采用了污染源调查的方式对电磁辐射水平高的区域进行了具体分析,发现这一区域有中波发射塔存在,应加强电磁辐射防护工作。
对于特定电磁辐射环境的研究,通过对电磁辐射源的统计分析,确定了移动通信基站、广播电视系统和高压电力系统为主要研究对象。以电磁环境监测的相关标准为主要方法,通过对三类电磁辐射源的环境监测与分析,得出其周围电磁辐射环境总体上较为清洁的结论;同时,通过对各类电磁辐射源的固有特点、电磁环境特点等方面的分析,在电磁辐射源的规划和建设上提出了合理性建议。
为了维护公众健康、防止电磁辐射污染,必须采取有力的防治措施,建议从严格执行政策法规、合理应用污染控制技术和加强个体防护三方面开展这项工作。
通过对哈尔滨市一般电磁辐射环境和特定电磁辐射环境两方面的研究,较好地掌握了整个城区的电磁辐射水平,具有一定的理论和实际意义:研究内容系统化;为电磁辐射体科学规划、电磁辐射污染防治指明了方向;为今后电磁辐射环境管理奠定了基础;可以为其他城市的电磁辐射污染调查工作提供可行性依据。
The electromagnetic radiation is the fourth environmental pollution source behind water, noise, atmosphere, Along with people applying electromagnetic technique extensively, the problem of electromagnetism pollution is gradually serious. Taking Harbin City as an example, the city area quality condition of general radiafrequency environment and specific source environment are introduced.
For general radiafrequency environment, through a lattice stationing and monitoring, carry on the environment quality evaluation according to national standard to, and apply software of geographic information system Arc View GIS to draw the contour chart, as a result, more sanitary condition of general radiafrequency environment is mastered in the city area; at the same time, carry on concrete analysis by the way of adopting the pollution source inquisition to region of high the electromagnetism radiation level, and discover there is the medium wave transmitting tower in district, strengthen protection of electromagnetic radiation.
To the specific source environment, through statistical analysis of electromagnetic radiation source first, mobilephone station and broadcast television system and high-tension system, are made main subjects investigated. The main method is the related standard with the electromagnetism environment monitoring, carry on the environment monitoring and analysis to three types of electromagnetic radiation source, the conclusion is that electromagnetic radiation is clean comparatively in their milieu environment; simultaneously, analyze aspects, such as proper characteristics of each kind of electromagnetic radiation source and the electromagnetism environment characteristics...etc., put the rationality suggestion on the programming and construction of the electromagnetic radiation source.
For supporting the public health and preventing from the electromagnetism radiation pollution, it is a must to take potent prophylactico-therapeutic measures, suggest completing this work from strict carrying out policy laws, reasonable application the pollution control technology and strengthen the individual protection three aspects.
Through research on the general radiafrequency environment and specific source environment in Harbin City, master the electromagnetic radiation level of the whole city district, it has a certain meanings of the theories and practice: systematize ror researching the contents; indicate a direction for scientific programming of electromagnetic radiator and prevention of pollution of the electromagnetic radiation; it is foundation for environmental management of electromagnetic radiation in future; provide a feasibility criterion for the investigation of electromagnetism pollution in other cities.
引文
[1] 孙宇新.电磁辐射对环境的污染及防护措施[J].工业安全与环保,2001,27(12):1—4
[2] 赵玉峰.现代环境中的电磁污染[M].北京:电子工业出版社,2003:2—4
[3] 李永卿.北京地区典型地域电磁辐射环境调查与分析[D].北京:北京工业大学硕士论文,2004:1
[4] 刘文魁,庞东.电磁辐射的污染及防护与治理[M].北京:科学出版社,2003:23—25
[5] 徐桂芝,杨庆新,颜威利.现代电磁技术发展综述[J].河北工业大学学报,2000,29(3):45—49
[6] L G Yan. Proceedings of MT-15[M]. Beijing: Science Press, 1997: 56
[7] 徐鹏,张建春.电磁辐射对人的危害与防护[J].中国个体防护装备,2001,(5):16—19
[8] 胡景森.电磁辐射的生物效应及其防护标准[J].安全与电磁兼容,1995,(3):20—26
[9] 许武林,吕航.电磁射频辐射对人体健康的危害[J].环境污染与防治,1995,17(3):31—33
[10] M H Repacholi. Low-level exposure to radiofrequency electromagnetic fieldshealth effects and research needs[J]. Electomagnetics, 1998, 19(1): 1—18
[11] E Robert. Teratogen update:electromagnetic fields[J]. Teratology, 1998, 19(2): 305—310
[12] J R Jauchem. Exposure to extremely-low-frequency electromagnetic fields and radiofrequency radiation—cardiovascular effects in human[J]. International Journal of Epidemiol, 1997, 70(1): 2—21
[13] L Sher. The effcts of natural and man-made electromagnetic fields on mood and behavior—the role of sleep disturbances[J]. Med Hypotheses, 2000, 54(4): 630—633
[14] H Walach, et al. Sferics and headache—a prospective study[J]. Blackwell Science Ltd. Cephalalgia, 2001, 21(4): 685—690
[15] O Zeyad, I Alhekail. Electromagnetic radiation from microwave ovens[J]. Journal of Radiological Protection, 2001, 21(2): 251—258
[16] M D Taurisano, A V Vorst. Experimental thermographic analysis of thermal effects induced on a human head exposed to 900 MHz fields of mobile phones[J]. IEEE Transactions on Microwave Theory and Techniques, 2000, 48(11): 2022—2032
[17] J M Elwood. A critical review of epidemiologic studies of radiofrequency exposure and human cancers[J]. Environmental Health Perspectives, 1999, 107(2): 155—168
[18] 曹兆进,王强.电磁辐射对健康影响的国内流行病学调查综述[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:25—28
[19] 韦绍波.电磁辐射污染及其测量装置[J].广西物理,2001,22(1):33—36
[20] 周志付,姜若婷,劳国强.电磁污染及防护对策[J].电力环境保护,2005,21(1):60—62
[21] 吴银彪.电磁辐射的污染与控制[J].中国环保产业,1999,(2):22—23
[22] 孟超,高燕,于森,等.城市电磁辐射污染的产生与危害[J].安全与电磁兼容,2005,(5):29—33
[23] 刘博,王惠敏.室内电磁辐射污染与防护[J].环境污染治理技术与设备,2003,4(6):91—92
[24] 黄德寅.电磁辐射对生物体的生物学效应[J].职业卫生与应急救援,2004,22(1):9—11
[25] R K Adair. Effect sofweak high-frequency electromagnetic field sonbiological systems[J]. Life Sciences, 1994, 274(2): 207—221
[26] 姚耿东,姜槐.关于电磁辐射危害的研究现状与展望[J].环境与健康杂志,2000,17(5):259—260
[27] 赵亚民,张林昌,蒋忠涌.电磁辐射讲义[M].北京:国家环保局监督管理司,1996:4—5
[28] C K Chou,J A Andrea,R A TellI et al.EEE C95.1-1991 RF安全标准修订的进展[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:59—60
[29] 姜槐,许正平.中国电磁场辐射标准的科学依据的探讨[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:61—63
[30] 孙秀莲.国内外电磁辐射监测技术概况及其发展趋势[J].山东环境,1995,(2):5—7
[31] R A Tell. Population Exposure to VHF and UHF broadcasting radiation in the Untied States[J]. Proceedings of the IEEE, 1980, 68(1): 6—12
[32] 孙冶,程卫.云南省电磁辐射污染现状及其发展趋势分析[J].云南环境科学,2001,20(1):82—83
[33] 付向阳.贵阳市城区电磁辐射环境现状调查[J].贵州环保科技,1998,(4):26—28
[34] 杨维耿.浙江省及杭州市电磁辐射环境污染源概况[J].环境污染与防治,2000,22(3):27
[35] 陈同新,韩瑞菊,孙天云.徐州市区电磁辐射污染现状与趋势分析[J].江苏环境科技,1997,(4):35—37
[36] 王聚杰,焦培南,凡俊梅,等.城市居民电磁环境测量分析与评价[J].电波科学学报,2000,15(3):260—264
[37] 殷建华,张健.北京市重点地区电磁辐射测量与分析[Z].北京:中国地球物理学会第二十届年会论文集,2004:575
[38] 王振新.抚顺市环境电磁辐射分布规律的研究与评价[z].北京:电磁辐射环境影响及电磁兼容学术讨论会论文集,1996:45—55
[39] 李明峰.兰州市主要城区电磁辐射污染调查与分布规律的研究[J].环境工程,1992,10(2):50—53
[40] 孙杰,张明棣.深圳特区环境电磁辐射传播模式研究与污染水平评价[Z].北京:电磁辐射环境影响及电磁兼容学术讨论会论文集,1996:28—35
[41] 朱文立.国内外电磁兼容发展动态[J].电子质量,2003,(7):62—64
[42] 邹澎.一般电磁环境监测中的布点方法[J].环境工程,1994,12(2);55—57
[43] 聂庆华.地理信息系统及其在环境科学中的应用[M].北京:高等教育出版社,2006:187
[44] 林少龙,蔡贤生.移动通信基站天线设置与电磁辐射影响分析[J].中国无线电,2005,(5):38—39
[45] 王亚民.对移动通信基站环境监测布点的讨论[J].青海环境,2003,13(2):65—67
[46] 胡智娟,张华清.移动通信技术实用教程[M].北京:国防工业出版社,2005:1
[47] 方德葵.广播发射实用技术[M].北京:中国广播电视出版社,2005:4—5
[48] 朱强.广播电视新技术[M].杭州:浙江大学出版社,2004:8—12
[49] 王翠莲.电磁波的调制在发送中的应用[J].中专物理教学,2000,8(1):37
[50] 杨琳.高压输变电工程与电磁辐射环境保护[J].山东电力高等专科学校学报,2004,7(1):51—53
[51] 李桂中.电力建设与环境保护[M].天津:天津大学出版社,2000:453—454
[52] 季成富.高压输变电工程电磁辐射管理控制对策[J].污染防治技术,2003,16(4):105—107
[53] 许宜满.高压输电线路电磁辐射污染评价[J].电力环境保护,1999,15(3):50—52
[54] N Wertheimer, E Leeper. Electrical wiring configurations and childhood cancer[J]. Amedcan Journal of epidemiology, 1979, 109(3): 273—284
[55] A B Miller, T To, D A Agnew, et al. Leukemia following occupational exposure to 60 Hz electric and magnetic fields among Ontario electric utility workers[J]. American Journal of epidemiology, 1996, 144(2): 150—160
[56] P E Coogan, R W Clapp, P A Newcomb, et al. Occupational exposure to 60 hertz magnetic fields and risk of breast cancer in women[J]. International Journal of Epidemiol, 1996, 7(3): 459—464
[57] L I Kheifets, A A Afifi, P A Buffler, et al. Occupational electric magnetic field exposure and brain cancer—a meta-analysis[J]. Indian Journal of occupational and environmental medicine, 1995, 37(3): 1327—1341
[58] D A Savitz, H Wachtel, F A Barnes, et al. Case-control study of childhood cancer and exposure to 60 Hertz magnetic fields[J]. American Journal of epidemiology, 1988, 128(1): 21—38
[59] P A Demers, D B Thomas, K A Rosenblat. Occupational exposure to electromagnetic fields and breast cancer in men[J]. American Journal of epidemiology, 1991, 134(4): 340—347
[60] 王毅,刘嘉林,麻桂荣.高压架空输电线走廊周边楼房电磁环境研究[J].城市管理与科技,2005,7(3):110—112
[61] 苏玉玲,董超..污染防治实习[M].北京:化学工业出版社,2003:222
[62] 张宝杰,乔英杰,赵志伟.环境物理性污染控制[M].北京:化学工业出版社,2003:176—178
[63] 黎国栋.高压线、变电站附近的电磁环境[J].上海计量测试,2005,(4):35—36
[64] 宋广生.室内环境污染防治指南[M].北京:机械工业出版社,2003:71
[65] L G Salford,A Brun,J Eberhardt.手机发射的微波对大鼠大脑神经元的损伤[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:43
[66] 王亚民,张金明.手机使用状态的电磁辐射研究[J].环境保护,2002,(7):35—36
[67] 王玉秋,钱茜.室内电磁辐射的危害及防护[J].解放军健康,2003,(4):37
[2] 赵玉峰.现代环境中的电磁污染[M].北京:电子工业出版社,2003:2—4
[3] 李永卿.北京地区典型地域电磁辐射环境调查与分析[D].北京:北京工业大学硕士论文,2004:1
[4] 刘文魁,庞东.电磁辐射的污染及防护与治理[M].北京:科学出版社,2003:23—25
[5] 徐桂芝,杨庆新,颜威利.现代电磁技术发展综述[J].河北工业大学学报,2000,29(3):45—49
[6] L G Yan. Proceedings of MT-15[M]. Beijing: Science Press, 1997: 56
[7] 徐鹏,张建春.电磁辐射对人的危害与防护[J].中国个体防护装备,2001,(5):16—19
[8] 胡景森.电磁辐射的生物效应及其防护标准[J].安全与电磁兼容,1995,(3):20—26
[9] 许武林,吕航.电磁射频辐射对人体健康的危害[J].环境污染与防治,1995,17(3):31—33
[10] M H Repacholi. Low-level exposure to radiofrequency electromagnetic fieldshealth effects and research needs[J]. Electomagnetics, 1998, 19(1): 1—18
[11] E Robert. Teratogen update:electromagnetic fields[J]. Teratology, 1998, 19(2): 305—310
[12] J R Jauchem. Exposure to extremely-low-frequency electromagnetic fields and radiofrequency radiation—cardiovascular effects in human[J]. International Journal of Epidemiol, 1997, 70(1): 2—21
[13] L Sher. The effcts of natural and man-made electromagnetic fields on mood and behavior—the role of sleep disturbances[J]. Med Hypotheses, 2000, 54(4): 630—633
[14] H Walach, et al. Sferics and headache—a prospective study[J]. Blackwell Science Ltd. Cephalalgia, 2001, 21(4): 685—690
[15] O Zeyad, I Alhekail. Electromagnetic radiation from microwave ovens[J]. Journal of Radiological Protection, 2001, 21(2): 251—258
[16] M D Taurisano, A V Vorst. Experimental thermographic analysis of thermal effects induced on a human head exposed to 900 MHz fields of mobile phones[J]. IEEE Transactions on Microwave Theory and Techniques, 2000, 48(11): 2022—2032
[17] J M Elwood. A critical review of epidemiologic studies of radiofrequency exposure and human cancers[J]. Environmental Health Perspectives, 1999, 107(2): 155—168
[18] 曹兆进,王强.电磁辐射对健康影响的国内流行病学调查综述[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:25—28
[19] 韦绍波.电磁辐射污染及其测量装置[J].广西物理,2001,22(1):33—36
[20] 周志付,姜若婷,劳国强.电磁污染及防护对策[J].电力环境保护,2005,21(1):60—62
[21] 吴银彪.电磁辐射的污染与控制[J].中国环保产业,1999,(2):22—23
[22] 孟超,高燕,于森,等.城市电磁辐射污染的产生与危害[J].安全与电磁兼容,2005,(5):29—33
[23] 刘博,王惠敏.室内电磁辐射污染与防护[J].环境污染治理技术与设备,2003,4(6):91—92
[24] 黄德寅.电磁辐射对生物体的生物学效应[J].职业卫生与应急救援,2004,22(1):9—11
[25] R K Adair. Effect sofweak high-frequency electromagnetic field sonbiological systems[J]. Life Sciences, 1994, 274(2): 207—221
[26] 姚耿东,姜槐.关于电磁辐射危害的研究现状与展望[J].环境与健康杂志,2000,17(5):259—260
[27] 赵亚民,张林昌,蒋忠涌.电磁辐射讲义[M].北京:国家环保局监督管理司,1996:4—5
[28] C K Chou,J A Andrea,R A TellI et al.EEE C95.1-1991 RF安全标准修订的进展[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:59—60
[29] 姜槐,许正平.中国电磁场辐射标准的科学依据的探讨[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:61—63
[30] 孙秀莲.国内外电磁辐射监测技术概况及其发展趋势[J].山东环境,1995,(2):5—7
[31] R A Tell. Population Exposure to VHF and UHF broadcasting radiation in the Untied States[J]. Proceedings of the IEEE, 1980, 68(1): 6—12
[32] 孙冶,程卫.云南省电磁辐射污染现状及其发展趋势分析[J].云南环境科学,2001,20(1):82—83
[33] 付向阳.贵阳市城区电磁辐射环境现状调查[J].贵州环保科技,1998,(4):26—28
[34] 杨维耿.浙江省及杭州市电磁辐射环境污染源概况[J].环境污染与防治,2000,22(3):27
[35] 陈同新,韩瑞菊,孙天云.徐州市区电磁辐射污染现状与趋势分析[J].江苏环境科技,1997,(4):35—37
[36] 王聚杰,焦培南,凡俊梅,等.城市居民电磁环境测量分析与评价[J].电波科学学报,2000,15(3):260—264
[37] 殷建华,张健.北京市重点地区电磁辐射测量与分析[Z].北京:中国地球物理学会第二十届年会论文集,2004:575
[38] 王振新.抚顺市环境电磁辐射分布规律的研究与评价[z].北京:电磁辐射环境影响及电磁兼容学术讨论会论文集,1996:45—55
[39] 李明峰.兰州市主要城区电磁辐射污染调查与分布规律的研究[J].环境工程,1992,10(2):50—53
[40] 孙杰,张明棣.深圳特区环境电磁辐射传播模式研究与污染水平评价[Z].北京:电磁辐射环境影响及电磁兼容学术讨论会论文集,1996:28—35
[41] 朱文立.国内外电磁兼容发展动态[J].电子质量,2003,(7):62—64
[42] 邹澎.一般电磁环境监测中的布点方法[J].环境工程,1994,12(2);55—57
[43] 聂庆华.地理信息系统及其在环境科学中的应用[M].北京:高等教育出版社,2006:187
[44] 林少龙,蔡贤生.移动通信基站天线设置与电磁辐射影响分析[J].中国无线电,2005,(5):38—39
[45] 王亚民.对移动通信基站环境监测布点的讨论[J].青海环境,2003,13(2):65—67
[46] 胡智娟,张华清.移动通信技术实用教程[M].北京:国防工业出版社,2005:1
[47] 方德葵.广播发射实用技术[M].北京:中国广播电视出版社,2005:4—5
[48] 朱强.广播电视新技术[M].杭州:浙江大学出版社,2004:8—12
[49] 王翠莲.电磁波的调制在发送中的应用[J].中专物理教学,2000,8(1):37
[50] 杨琳.高压输变电工程与电磁辐射环境保护[J].山东电力高等专科学校学报,2004,7(1):51—53
[51] 李桂中.电力建设与环境保护[M].天津:天津大学出版社,2000:453—454
[52] 季成富.高压输变电工程电磁辐射管理控制对策[J].污染防治技术,2003,16(4):105—107
[53] 许宜满.高压输电线路电磁辐射污染评价[J].电力环境保护,1999,15(3):50—52
[54] N Wertheimer, E Leeper. Electrical wiring configurations and childhood cancer[J]. Amedcan Journal of epidemiology, 1979, 109(3): 273—284
[55] A B Miller, T To, D A Agnew, et al. Leukemia following occupational exposure to 60 Hz electric and magnetic fields among Ontario electric utility workers[J]. American Journal of epidemiology, 1996, 144(2): 150—160
[56] P E Coogan, R W Clapp, P A Newcomb, et al. Occupational exposure to 60 hertz magnetic fields and risk of breast cancer in women[J]. International Journal of Epidemiol, 1996, 7(3): 459—464
[57] L I Kheifets, A A Afifi, P A Buffler, et al. Occupational electric magnetic field exposure and brain cancer—a meta-analysis[J]. Indian Journal of occupational and environmental medicine, 1995, 37(3): 1327—1341
[58] D A Savitz, H Wachtel, F A Barnes, et al. Case-control study of childhood cancer and exposure to 60 Hertz magnetic fields[J]. American Journal of epidemiology, 1988, 128(1): 21—38
[59] P A Demers, D B Thomas, K A Rosenblat. Occupational exposure to electromagnetic fields and breast cancer in men[J]. American Journal of epidemiology, 1991, 134(4): 340—347
[60] 王毅,刘嘉林,麻桂荣.高压架空输电线走廊周边楼房电磁环境研究[J].城市管理与科技,2005,7(3):110—112
[61] 苏玉玲,董超..污染防治实习[M].北京:化学工业出版社,2003:222
[62] 张宝杰,乔英杰,赵志伟.环境物理性污染控制[M].北京:化学工业出版社,2003:176—178
[63] 黎国栋.高压线、变电站附近的电磁环境[J].上海计量测试,2005,(4):35—36
[64] 宋广生.室内环境污染防治指南[M].北京:机械工业出版社,2003:71
[65] L G Salford,A Brun,J Eberhardt.手机发射的微波对大鼠大脑神经元的损伤[Z].桂林:第三届电磁与健康国际研讨会暨2003年全国电磁辐射生物学学术会议论文集,2003:43
[66] 王亚民,张金明.手机使用状态的电磁辐射研究[J].环境保护,2002,(7):35—36
[67] 王玉秋,钱茜.室内电磁辐射的危害及防护[J].解放军健康,2003,(4):37